Room temperature creep behavior of Ti–Nb–Mo–Sn based shape memory alloy for biomedical application

Smart Materials in Manufacturing Pub Date : 2023-01-01 DOI:10.1016/j.smmf.2023.100019

Chenglong Lei , Chengpeng Zhu , Jianguo Lin , Dechuang Zhang

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Abstract

As a metallic biomaterial used to replace failed hard tissues, β-type titanium alloys subjected to a long-term loading, may lead to the creep deformation at room temperature. Here we report the room temperature creep behavior and its influence on the superelasticity in the Ti-7.5Nb–4Mo–2Sn based shape memory alloy, which exhibits a good superelasticity at room temperature. It is found that the stress level has a remarkable effect on the creep behavior of the alloy. The alloy exhibits an obvious creep deformation under a stress more than critical stress for inducing martensitic transformation, σ_SIM. As the applied stress is slightly higher than σ_SIM, it exhibits a significant creep deformation at room temperature due to the stress-induced martensitic transformation, but with the applied stress further increasing, the creep deformation decreases due to occurrence of the assisted detwinning. The room temperature creep deformation of the alloy is mainly controlled by the domino detwinning of the twinned martensites, companying with the slide of dislocations.

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医用Ti–Nb–Mo–Sn基形状记忆合金的室温蠕变行为

β型钛合金作为一种用于替代失效硬组织的金属生物材料，在长期的载荷作用下，可能导致室温下的蠕变变形。在这里，我们报道了Ti-7.5Nb–4Mo–2Sn基形状记忆合金的室温蠕变行为及其对超弹性的影响，该合金在室温下表现出良好的超弹性。研究发现，应力水平对合金的蠕变行为有显著影响。合金在大于诱发马氏体相变临界应力σSIM的应力下表现出明显的蠕变变形。由于外加应力略高于σSIM，由于应力诱导的马氏体相变，它在室温下表现出显著的蠕变变形，但随着外加应力的进一步增加，由于辅助脱温的发生，蠕变变形减小。合金的室温蠕变变形主要受孪晶马氏体的多米诺骨牌失稳以及位错的滑移控制。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Smart Materials in Manufacturing

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